commit | 01c687f847ec51ad9c0948905c23060ac605f0d8 | [log] [tgz] |
---|---|---|
author | Joe Gregorio <joe@bitworking.org> | Sat Oct 12 21:35:06 2013 -0400 |
committer | Joe Gregorio <joe@bitworking.org> | Sat Oct 12 21:35:06 2013 -0400 |
tree | a7dcc6ee7a2fa285cc451fb1850a5f94d7e009c8 | |
parent | 21839518b961a1b8f0525032178e785f6662b9f3 [diff] |
Update README.md
###Httplib2
A comprehensive HTTP client library, httplib2.py supports many features left out of other HTTP libraries.
###HTTP and HTTPS HTTPS support is only available if the socket module was compiled with SSL support. ###Keep-Alive Supports HTTP 1.1 Keep-Alive, keeping the socket open and performing multiple requests over the same connection if possible. ###Authentication The following three types of HTTP Authentication are supported. These can be used over both HTTP and HTTPS.
###Caching The module can optionally operate with a private cache that understands the Cache-Control: header and uses both the ETag and Last-Modified cache validators.
###All Methods The module can handle any HTTP request method, not just GET and POST.
###Redirects Automatically follows 3XX redirects on GETs.
###Compression Handles both 'deflate' and 'gzip' types of compression.
###Lost update support Automatically adds back ETags into PUT requests to resources we have already cached. This implements Section 3.2 of Detecting the Lost Update Problem Using Unreserved Checkout.
###Unit Tested A large and growing set of unit tests.
For more information on this module, see:
http://bitworking.org/projects/httplib2/
The httplib2 module is shipped as a distutils package. To install the library, unpack the distribution archive, and issue the following command:
$ python setup.py install
A simple retrieval:
import httplib2 h = httplib2.Http(".cache") (resp_headers, content) = h.request("http://example.org/", "GET")
The 'content' is the content retrieved from the URL. The content is already decompressed or unzipped if necessary.
To PUT some content to a server that uses SSL and Basic authentication:
import httplib2 h = httplib2.Http(".cache") h.add_credentials('name', 'password') (resp, content) = h.request("https://example.org/chapter/2", "PUT", body="This is text", headers={'content-type':'text/plain'} )
Use the Cache-Control: header to control how the caching operates.
import httplib2 h = httplib2.Http(".cache") (resp, content) = h.request("http://bitworking.org/", "GET") ... (resp, content) = h.request("http://bitworking.org/", "GET", headers={'cache-control':'no-cache'})
The first request will be cached and since this is a request to bitworking.org it will be set to be cached for two hours, because that is how I have my server configured. Any subsequent GET to that URI will return the value from the on-disk cache and no request will be made to the server. You can use the Cache-Control: header to change the caches behavior and in this example the second request adds the Cache-Control: header with a value of 'no-cache' which tells the library that the cached copy must not be used when handling this request.